This highlights the importance of material properties in the ... Capacitorless DRAM: A DRAM design that eliminates the need for capacitors, allowing for smaller and more efficient memory cells.

However, it will require new materials, including ferroelectrics ... Researchers are also exploring capacitor-less DRAM designs. One alternative involves gate-controlled thyristors, while another ...

Ferroelectric materials promise computer memories with ... However, because the charge on a DRAM capacitor leaks away in a matter of milliseconds, the information stored on them is 'volatile ...

DRAM is the type of RAM you find on the RAM cards inserted into your motherboard. It consists of a massive array of capacitors and transistors. Each bit requires one transistor and one capacitor ...

DRAM cells in this 2T0C (2 transistor 0 capacitor) configuration show a retention time longer than 400s for different cell dimensions – significantly reducing the memory's refresh rate and power ...

The new 40 nm technologies also leverage innovative high-dielectric (high-k) materials— such as hafnium gate dielectrics, nickel-silicide gate electrodes, and zirconium-oxide DRAM capacitors—that have ...

removing the requirement of an extra capacitor, which DRAM needs to function. Wong's research team's tech uses a hybrid gan ...

Conventional dynamic RAM (DRAM) devices have basic storage units consisting of transistors and capacitors. However, the stored data is volatile, meaning that energy input is required to retain the ...